CN212617141U

CN212617141U - High-speed camera carrying device

Info

Publication number: CN212617141U
Application number: CN202020765676.0U
Authority: CN
Inventors: 尹广俊; 高明; 周天明; 冯希金; 吕龙; 李文文; 陈鹏飞
Original assignee: Sailun Jinyu Group Co Ltd
Current assignee: Sailun Jinyu Group Co Ltd
Priority date: 2020-05-11
Filing date: 2020-05-11
Publication date: 2021-02-26
Anticipated expiration: 2030-05-11

Abstract

The application discloses a carrying device of a high-speed camera, which comprises a high-speed camera, a section bar rear arm, a middle supporting arm and a section bar front arm; one end of the section bar rear arm is connected with the end part of the middle supporting arm, and the other end of the section bar rear arm is provided with a rear arm travelling mechanism; the middle section of the middle supporting arm is provided with an upper side plate and a lower side plate, one end of the front arm of the section bar is arranged between the upper side plate and the lower side plate and is rotationally connected with the upper side plate and the lower side plate through a rotating shaft, and the other end of the front arm of the section bar is provided with two rollers; the middle section of middle part support arm is provided with the appearance lifting unit that makes a video recording, makes a video recording the appearance lifting unit and sets up between side upper plate, side hypoplastron. The utility model discloses can overcome the inconvenient drawback of manual adjustment appearance operation among the prior art of making a video recording, realize optional position, angle, the height of automatically regulated appearance of making a video recording, save the cost, the reasonable novelty of structural design.

Description

High-speed camera carrying device

Technical Field

The utility model relates to a high-speed appearance carrier of making a video recording belongs to tire equipment field.

Background

The performance of a tire as a connecting part with the ground when a vehicle runs directly influences the bearing capacity, braking, driving and operating stability of the vehicle. The tread pattern block is a part of the tire which is directly contacted with the ground, the structural performance of the tread pattern block directly determines the use performance of the tire, particularly the rigidity characteristic of the tread pattern block, and the tread pattern block plays an important role in force transmission, turning, braking and lateral deviation of the tire, so that the rigidity characteristic research of the tread pattern block is the key for developing a high-performance tire. In the tread pattern block rigidity research test process, the working condition of the tread pattern block needs to be observed through a high-speed camera, and the position, the camera angle, the height and the like of the high-speed camera need to be adjusted in the observation process so as to observe the pattern block in the test at multiple angles.

In the prior art, when studying and testing the rigidity of a tread pattern block, a high-speed camera carrying frame is generally used as a carrying and supporting device of the high-speed camera. The existing high-speed camera carrying rack adopts a tripod structure.

The high-speed camera carrying frame with the tripod structure needs to manually adjust the opening and the angle between the supporting rods when the height of the high-speed camera is adjusted, and needs to manually move the position of the high-speed camera when the shooting position of the high-speed camera is adjusted, so that the degree of automation is low, and the pattern blocks in the test are difficult to observe at multiple angles. Although it is possible to facilitate multi-angle observation of the block under test by increasing the number of high-speed cameras, the cost of block stiffness testing may be increased due to the higher price of high-speed cameras.

SUMMERY OF THE UTILITY MODEL

The technical scheme of the utility model a high-speed appearance carrier that makes a video recording carries out the observation time measuring of multi-angle at the decorative pattern piece to in testing, does not need shooting position, height and the angle of the high-speed appearance of making a video recording of manual adjustment, and degree of automation is high, realizes carrying out the observation of multi-angle to the decorative pattern piece in the test.

In order to solve the technical problem, the utility model discloses the technical scheme who takes is:

a carrying device of a high-speed camera comprises a high-speed camera, a section bar rear arm, a middle supporting arm and a section bar front arm; the end part of the rear arm of the section bar is fixedly connected with the end part of the middle supporting arm, and the high-speed camera is arranged on the middle supporting arm; the middle supporting arm comprises two short section bars, and the high-speed camera carrying device also comprises a rear arm travelling mechanism, a height lifting assembly, a camera connecting assembly and a front arm swinging assembly; the rear arm walking mechanism is arranged at one end, far away from the middle supporting arm, of the profile rear arm, the height lifting assembly is arranged at the middle section of the middle supporting arm and is positioned between the two profile short arms, the front arm swinging assembly is arranged at one end, close to the middle supporting arm, of the profile front arm, the profile front arm is connected with the middle supporting arm through the front arm swinging assembly, and a roller is arranged at one end, far away from the middle supporting arm, of the profile front arm; the camera connecting assembly is arranged on one of the section bar short arms, and the high-speed camera is connected with the middle supporting arm through the camera connecting assembly.

Preferably, the rear arm travelling mechanism of the high-speed camera carrying device comprises a roller, a roller motor and a motor fixing plate, the roller and the motor fixing plate are respectively arranged on two sides of the end part of the rear arm of the profile, the motor fixing plate is fixedly connected with the rear arm of the profile, the roller motor is arranged on the motor fixing plate, and the power output end of the roller motor is connected with a small straight gear; the end part of the rear arm of the section bar is provided with a large gear transmission shaft, the large gear transmission shaft penetrates through the end part of the rear arm of the section bar and is rotatably connected with the rear arm of the section bar, one end of the large gear transmission shaft is connected with the idler wheel, the other end of the large gear transmission shaft is provided with a large straight gear, and the large straight gear is meshed with a small straight gear.

Preferably, the high-speed camera carrying device comprises a camera connecting assembly and a high-speed camera base, wherein the camera connecting assembly comprises a base connecting plate and a high-speed camera base; the high-speed camera is characterized in that a high-speed camera hinged ball is arranged at the bottom of the high-speed camera, a ball groove matched with the high-speed camera hinged ball is formed in the high-speed camera base, and the high-speed camera hinged ball is arranged in the ball groove in the high-speed camera base.

Preferably, the high-speed camera carrying device comprises a height lifting assembly and a height adjusting assembly, wherein the height lifting assembly comprises a front fixing plate, a front rotating block and a belt wheel motor; the end part of the front arm of the section is connected with the front rotating block through a front arm swinging assembly; the front rotating block is arranged between the two profile short arms, the end parts of the two profile short arms are connected through a fixed shaft of the front rotating block, and the belt wheel motor is arranged on one of the profile short arms; the front fixing plate is fixedly arranged on the short arm of the section bar, the shaft end of the belt wheel motor is connected with a third small belt wheel, a belt wheel transmission shaft is arranged on the front fixing plate, the belt wheel transmission shaft penetrates through the front fixing plate and is rotatably connected with the front fixing plate, a third large belt wheel and a fourth large belt wheel are respectively arranged at two ends of the belt wheel transmission shaft, and a third belt is arranged between the third small belt wheel and the third large belt wheel and is in transmission connection with the third belt; a fourth belt is arranged between the fourth large belt wheel and the front rotating block, the fourth large belt wheel drives the front rotating block to rotate through the fourth belt, and the front rotating block and the two profile short arms rotate relatively.

Preferably, in the carrying device for the high-speed camera, the forearm swing assembly comprises a cone pulley motor, a side upper plate and a side lower plate, the front rotating block is arranged between the side upper plate and the side lower plate and fixedly connected with the side upper plate and the side lower plate, and one end of the forearm of the section is arranged between the side upper plate and the side lower plate and rotatably connected with the side upper plate and the side lower plate through a rotating shaft; the bevel gear motor is arranged on the side upper plate, the power output end of the bevel gear motor is connected with a first bevel gear, a front arm extension shaft is arranged on a front arm of the profile, one end of the front arm extension shaft is fixed with the front arm of the profile, the other end of the front arm extension shaft penetrates through the side upper plate and is connected with the side upper plate in a rotating mode, a second bevel gear is fixedly connected to the end portion of the front arm extension shaft, and the second bevel gear is meshed with the first bevel gear.

Preferably, the end portions of the two short arms of the high-speed camera are respectively connected with a rear arm of the sectional material, the short arms of the sectional material are provided with L-shaped sectional material angle pieces, one side surface of each sectional material angle piece is fixedly connected with the corresponding short arm of the sectional material, and the other side surface of each sectional material angle piece is fixedly connected with the corresponding rear arm of the sectional material.

Optimally, the rear arm, the short arm and the front arm of the profile of the high-speed camera carrying device are hollow aluminum profile rods; the surface of the section bar rear arm and the surface of the section bar short arm are respectively provided with a T-shaped groove, the surfaces of the section bar rear arm and the section bar short arm are respectively provided with a connecting bolt, the head of the connecting bolt is arranged in the T-shaped groove and slides with the T-shaped groove, and the connecting bolt penetrates through the section bar corner fitting and is fixed with the section bar corner fitting through a nut.

Compared with the prior art, the beneficial effects of the utility model are as follows:

(1) the section bar back arm, middle part support arm and section bar forearm form a main part that supports high-speed camera shooting appearance, and the back arm running gear drive section bar back arm of section bar back arm tip removes, and then drives whole high-speed camera shooting appearance carrying device and remove for high-speed camera shooting appearance can remove, makes things convenient for high-speed camera shooting appearance to make a video recording and information acquisition from different positions.

(2) The high lifting unit can change the opening and the angle between the back arm and the front arm of the sectional material, so as to adjust the height of the high-speed camera, and the high-speed camera can conveniently take pictures and acquire information from different heights according to observation requirements.

(3) The forearm swing subassembly makes the section bar forearm can swing for middle part support arm, section bar postbrachium, at the in-process that high-speed appearance carrier position removed of making a video recording, adjusts high-speed appearance carrier's direction of travel, makes things convenient for high-speed appearance of making a video recording and information acquisition from different angles.

(4) The high-speed camera is connected with the ball head groove in the high-speed camera base through the high-speed camera hinged ball, so that the high-speed camera can rotate different angles relative to the high-speed camera base, and the shooting angle and range of the high-speed camera during shooting and information collection are conveniently adjusted.

(5) The section bar rear arm, the section bar short arm and the section bar front arm are hollow aluminum section bar rods, and the dead weight of the whole high-speed camera carrying device can be reduced. The relative installation position between the profile rear arm and the profile short arm can be adjusted through sliding so as to adapt to different use requirements.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the rear arm traveling mechanism of the present invention;

fig. 3 is a schematic structural view of the height elevating assembly of the present invention;

fig. 4 is a schematic structural view of a forearm swing assembly of the present invention;

fig. 5 is a schematic structural view of the high-speed camera carrying device of the present invention on the carrying platform;

FIG. 6 is a schematic structural view of the front turning block of the present invention;

in the figure: 180. a high-speed camera; 181. the high-speed camera is hinged with the ball; 182. a high-speed camera base; 183. a base connection plate; 184. a profile rear arm; 185. a roller; 186. a roller motor; 187. a small spur gear; 188. a large spur gear; 189. a motor fixing plate; 190. a bull gear drive shaft; 191. a short arm of the profile; 192. a pulley motor; 193. a third small belt pulley; 194. a third large belt pulley; 195. a third belt; 196. a profile corner fitting; 197. a front turning block; 198. a fourth large pulley; 199. a fourth belt; 200. a pulley drive shaft; 201. a front fixing plate; 202. A first bevel gear; 203. a second bevel gear; 204. a cone pulley motor; 205. a side upper plate; 206. a side lower plate; 207. a section bar forearm; 208. the front arm extends out of the shaft.

Detailed Description

The technical features of the present invention will be further explained with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1, the utility model relates to a high-speed camera carrying device, which comprises a high-speed camera 180, a section bar rear arm 184, a middle supporting arm and a section bar front arm 207; the end part of the section bar rear arm 184 is fixedly connected with the end part of the middle supporting arm, and the high-speed camera 180 is arranged on the middle supporting arm; the middle supporting arm comprises two section bar short arms 191, and the high-speed camera carrying device also comprises a rear arm travelling mechanism, a height lifting assembly, a camera connecting assembly and a front arm swinging assembly; the rear arm walking mechanism is arranged at one end, far away from the middle supporting arm, of the profile rear arm 184, the height lifting assembly is arranged at the middle section of the middle supporting arm and is positioned between the two profile short arms 191, the front arm swinging assembly is arranged at one end, close to the middle supporting arm, of the profile front arm 207, the profile front arm 207 is connected with the middle supporting arm through the front arm swinging assembly, and a roller is arranged at one end, far away from the middle supporting arm, of the profile front arm 207; the camera connecting assembly is arranged on one of the section bar short arms 191, and the high-speed camera 180 is connected with the middle supporting arm through the camera connecting assembly.

The section bar rear arm 184, the middle supporting arm and the section bar front arm 207 form a main body for supporting the high-speed camera 180, the rear arm walking mechanism at the end part of the section bar rear arm 184 drives the section bar rear arm 184 to move, and then drives the whole high-speed camera carrying device to move, so that the high-speed camera 180 can take pictures and acquire information at different angles at different positions. The ends of the profile front arm 207 are pivotally connected to the upper and

lower side plates

205, 206 so that the profile front arm 207 can guide the movement of the entire high-speed camera carrier by pivoting. The high-speed camera 180 is connected with the middle supporting arm through the camera connecting assembly, the high-speed camera 180 is fixed, and the stability of the high-speed camera 180 is guaranteed in the moving process of the high-speed camera 180.

As shown in fig. 2, the rear arm traveling mechanism includes a roller 185, a roller motor 186 and a motor fixing plate 189, the roller 185 and the motor fixing plate 189 are respectively disposed at two sides of the end portion of the profile rear arm 184, the motor fixing plate 189 is fixedly connected with the profile rear arm 184, the roller motor 186 is disposed on the motor fixing plate 189, and the power output end is connected with a small spur gear 187; the end part of the rear arm 184 of the profile is provided with a large gear transmission shaft 190, the large gear transmission shaft 190 penetrates through the end part of the rear arm 184 of the profile and is rotatably connected with the rear arm 184 of the profile, one end of the large gear transmission shaft 190 is connected with a roller 185, the other end of the large gear transmission shaft 190 is provided with a large spur gear 188, and the large spur gear 188 is meshed with a small spur gear 187.

A small spur gear 187, a large spur gear 188, a large gear drive shaft 190 and a roller 185 are driven by a roller motor 186, so that the roller 185 can rotationally drive the profile rear arm 184 and the whole high-speed camera carrying device to move.

As shown in fig. 1, the camera connecting assembly includes a base connecting plate 183 and a high-speed camera base 182, the base connecting plate 183 is fixedly arranged on one of the short section bars 191, and the high-speed camera base 182 is arranged on the base connecting plate 183; the bottom of the high-speed camera 180 is provided with a high-speed camera hinging ball 181, a ball groove matched with the high-speed camera hinging ball 181 is arranged in the high-speed camera base 182, and the high-speed camera hinging ball 181 is arranged in the ball groove in the high-speed camera base 182.

The high-speed camera 180 is connected with the ball head groove in the high-speed camera base 182 through the high-speed camera hinging ball 181, so that the high-speed camera 180 can rotate different angles relative to the high-speed camera base 182, and the shooting angle and range of the high-speed camera 180 during shooting and information acquisition are conveniently adjusted.

As shown in fig. 3, the height lifting assembly includes a front fixing plate 201, a front rotating block 197, a pulley motor 192; the end part of the front arm of the section bar is connected with a front rotating block 197 through a front arm swinging assembly; the front rotating block 197 is arranged between the two profile short arms 191, the end parts of the two profile short arms 191 are connected through a fixed shaft of the front rotating block 197, and the belt wheel motor 192 is arranged on one of the profile short arms 191; the front fixing plate 201 is fixedly arranged on the section bar short arm 191, the shaft end of the belt wheel motor 192 is connected with a third small belt wheel 193, a belt wheel transmission shaft 200 is arranged on the front fixing plate 201, the belt wheel transmission shaft 200 penetrates through the front fixing plate 201 and is rotatably connected with the front fixing plate 201, a third large belt wheel 194 and a fourth large belt wheel 198 are respectively arranged at two ends of the belt wheel transmission shaft 200, and a third belt 195 is arranged between the third small belt wheel 193 and the third large belt wheel 194 and is in transmission connection with the third belt 195; a fourth belt 199 is arranged between the fourth large belt wheel 198 and the front rotating block 197, the fourth large belt wheel 198 drives the front rotating block 197 to rotate through the fourth belt 199, and the front rotating block 197 and the two profile short arms 191 rotate relatively.

Set up belt transmission between band pulley motor 192 and leading turning block 197 for band pulley motor 192 can drive leading turning block 197 turned angle, and then drive side upper plate 205, side lower plate 206 and section bar forearm 207 rotate, section bar forearm 207 can adjust the contained angle with section bar postbrachium 184 after rotating, and then adjust whole high-speed camera appearance carrying device height, adjust high-speed camera appearance 180's shooting height, conveniently adjust high-speed camera appearance 180 and make a video recording, shooting angle and scope during the acquisition information.

As shown in fig. 4, the forearm swing assembly comprises a cone pulley motor 204, an upper side plate 205 and a lower side plate 206, a front rotating block 197 is arranged between the upper side plate 205 and the lower side plate 206 and fixedly connected with the upper side plate 205 and the lower side plate 206, and one end of the profile forearm is arranged between the upper side plate 205 and the lower side plate 206 and rotatably connected with the upper side plate 205 and the lower side plate 206 through a rotating shaft; the bevel gear motor 204 is arranged on the side upper plate 205, the power output end of the bevel gear motor 204 is connected with a first bevel gear 202, a front arm extension shaft 208 is arranged on the front arm of the profile, one end of the front arm extension shaft 208 is fixed with the front arm of the profile, the other end of the front arm extension shaft 208 penetrates through the side upper plate 205 and is rotatably connected with the side upper plate 205, a second bevel gear 203 is fixedly connected to the end part of the front arm extension shaft 208, and the second bevel gear 203 is meshed with the first bevel gear 202.

The first bevel gear 202, the second bevel gear 203 and the front arm extension shaft 208 are driven to rotate by the bevel gear motor 204, so that the front arm 207 of the profile swings relative to the side upper plate 205, and the advancing direction of the high-speed camera carrying device is adjusted in the moving process of the high-speed camera carrying device.

As shown in fig. 1 and 3, the ends of the two profile short arms 191 are respectively connected with a profile rear arm 184, an L-shaped profile angle 196 is arranged on the profile short arm 191, one side surface of the profile angle 196 is fixedly connected with the profile short arm 191, and the other side surface of the profile angle 196 is fixedly connected with the profile rear arm 184.

As shown in fig. 1 to 4, the profile rear arm 184, the profile short arm 191 and the profile front arm are all hollow aluminum profile rods; the surface of the profile rear arm 184 and the surface of the profile short arm 191 are respectively provided with a T-shaped groove, the surface of the profile rear arm 184 and the surface of the profile short arm 191 are respectively provided with a connecting bolt, the head of the connecting bolt is arranged in the T-shaped groove and slides with the T-shaped groove, and the connecting bolt penetrates through the profile corner piece 196 and is fixed with the profile corner piece 196 through a nut.

The profile rear arm 184, the profile short arm 191 and the profile front arm 207 are all hollow profile rods, so that the dead weight of the whole high-speed camera carrying device can be reduced. The relative installation position between the profile rear arm 184 and the profile short arm 191 can be adjusted through sliding so as to adapt to different use requirements.

The working process and principle of the high-speed camera carrying device are as follows: starting the high-speed camera carrying device, enabling the roller motor 186 arranged on the rear arm 184 of the profile to rotate to further cause the small spur gear 187, the large spur gear 188, the large gear transmission shaft 190 and the roller 185 to rotate, achieving horizontal movement of the high-speed camera carrying device, starting the cone pulley motor 204 to further cause the first bevel gear 202, the second bevel gear 203 and the front arm 207 of the profile to rotate, achieving swing arm operation, and controlling the movement direction of the high-speed camera carrying device. Through the combined control of the two roller motors 185 and the cone pulley motor 204, the high-speed camera carrying device reaches a position suitable for rigidity test photographing. The pulley motor 192 is started to cause the third small pulley 193, the third large pulley 194, the fourth large pulley 198 and the front rotating block 197 to rotate, so that the high-speed camera 180 can move up and down, and the high-speed camera 180 can be adjusted to a proper height to take a picture.

Of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art should also understand that the changes, modifications, additions or substitutions made within the scope of the present invention should belong to the protection scope of the present invention.

Claims

1. A carrying device of a high-speed camera comprises a high-speed camera, a section bar rear arm, a middle supporting arm and a section bar front arm; the end part of the rear arm of the section bar is fixedly connected with the end part of the middle supporting arm, and the high-speed camera is arranged on the middle supporting arm; the method is characterized in that: the middle supporting arm comprises two short section bars, and the high-speed camera carrying device also comprises a rear arm travelling mechanism, a height lifting assembly, a camera connecting assembly and a front arm swinging assembly; the rear arm walking mechanism is arranged at one end, far away from the middle supporting arm, of the profile rear arm, the height lifting assembly is arranged at the middle section of the middle supporting arm and is positioned between the two profile short arms, the front arm swinging assembly is arranged at one end, close to the middle supporting arm, of the profile front arm, the profile front arm is connected with the middle supporting arm through the front arm swinging assembly, and a roller is arranged at one end, far away from the middle supporting arm, of the profile front arm; the camera connecting assembly is arranged on one of the section bar short arms, and the high-speed camera is connected with the middle supporting arm through the camera connecting assembly.

2. A high-speed camera carrier device according to claim 1, characterized in that: the rear arm travelling mechanism comprises a roller, a roller motor and a motor fixing plate, the roller and the motor fixing plate are respectively arranged on two sides of the end part of the rear arm of the profile, the motor fixing plate is fixedly connected with the rear arm of the profile, the roller motor is arranged on the motor fixing plate, and the power output end of the roller motor is connected with a small straight gear; the end part of the rear arm of the section bar is provided with a large gear transmission shaft, the large gear transmission shaft penetrates through the end part of the rear arm of the section bar and is rotatably connected with the rear arm of the section bar, one end of the large gear transmission shaft is connected with the idler wheel, the other end of the large gear transmission shaft is provided with a large straight gear, and the large straight gear is meshed with a small straight gear.

3. A high-speed camera carrier device according to claim 1, characterized in that: the camera connecting assembly comprises a base connecting plate and a high-speed camera base, the base connecting plate is fixedly arranged on one of the short arms of the section bar, and the high-speed camera base is arranged on the base connecting plate; the high-speed camera is characterized in that a high-speed camera hinged ball is arranged at the bottom of the high-speed camera, a ball groove matched with the high-speed camera hinged ball is formed in the high-speed camera base, and the high-speed camera hinged ball is arranged in the ball groove in the high-speed camera base.

4. A high-speed camera carrier device according to claim 1, characterized in that: the height lifting assembly comprises a front fixing plate, a front rotating block and a belt wheel motor; the end part of the front arm of the section is connected with the front rotating block through a front arm swinging assembly; the front rotating block is arranged between the two profile short arms, the end parts of the two profile short arms are connected through a fixed shaft of the front rotating block, and the belt wheel motor is arranged on one of the profile short arms; the front fixing plate is fixedly arranged on the short arm of the section bar, the shaft end of the belt wheel motor is connected with a third small belt wheel, a belt wheel transmission shaft is arranged on the front fixing plate, the belt wheel transmission shaft penetrates through the front fixing plate and is rotatably connected with the front fixing plate, a third large belt wheel and a fourth large belt wheel are respectively arranged at two ends of the belt wheel transmission shaft, and a third belt is arranged between the third small belt wheel and the third large belt wheel and is in transmission connection with the third belt; a fourth belt is arranged between the fourth large belt wheel and the front rotating block, the fourth large belt wheel drives the front rotating block to rotate through the fourth belt, and the front rotating block and the two profile short arms rotate relatively.

5. A high speed camera carrier device according to claim 4, further comprising: the front arm swing assembly comprises a cone pulley motor, a side upper plate and a side lower plate, a front rotating block is arranged between the side upper plate and the side lower plate and fixedly connected with the side upper plate and the side lower plate, and one end of the front arm of the section bar is arranged between the side upper plate and the side lower plate and rotatably connected with the side upper plate and the side lower plate through a rotating shaft; the bevel gear motor is arranged on the side upper plate, the power output end of the bevel gear motor is connected with a first bevel gear, a front arm extension shaft is arranged on a front arm of the profile, one end of the front arm extension shaft is fixed with the front arm of the profile, the other end of the front arm extension shaft penetrates through the side upper plate and is connected with the side upper plate in a rotating mode, a second bevel gear is fixedly connected to the end portion of the front arm extension shaft, and the second bevel gear is meshed with the first bevel gear.

6. A high-speed camera carrier device according to claim 1, characterized in that: the end parts of the two profile short arms are respectively connected with a profile rear arm, an L-shaped profile corner piece is arranged on each profile short arm, one side surface of each profile corner piece is fixedly connected with the profile short arm, and the other side surface of each profile corner piece is fixedly connected with the profile rear arm.

7. A high-speed camera carrier device according to claim 1, characterized in that: the rear arm, the short arm and the front arm of the section are hollow aluminum section bars; the surface of the section bar rear arm and the surface of the section bar short arm are respectively provided with a T-shaped groove, the surfaces of the section bar rear arm and the section bar short arm are respectively provided with a connecting bolt, the head of the connecting bolt is arranged in the T-shaped groove and slides with the T-shaped groove, and the connecting bolt penetrates through the section bar corner fitting and is fixed with the section bar corner fitting through a nut.